57:
Today's expander heads have a leading end much smaller in diameter than the trailing (bursting) end, small enough to fit through the pipe that will be replaced. The smaller leading end is designed to guide the expander head through the existing pipe; earlier models did not have this feature and lost
61:
The transition from the leading end to the trailing end can include "fins" that make first contact with the existing pipe. Using these fins as the primary breaking point is a very effective way to ensure that the pipe is broken along the entire circumference.
76:
Pipe bursting may also be used to expand pipeline carrying capacity by replacing smaller pipes with larger ones, or "upsizing." Extensive proving work by the gas and water industries has demonstrated the feasibility of upsizing gas mains,
65:
A machine is set in the receiving pit to pull the expander head and new pipe into the line. The head is pulled by heavy, interlocking links that form a chain. Each link weighs several hundred pounds.
20:
51:
39:
50:
There are five key pieces of equipment used in a pipebursting operation: the expander head, pulling rods, a pulling machine, a retaining device, and a
85:. Upsizing from 100mm to 225mm diameter is now well established, and pipes of up to 36 inch diameter and greater have been replaced.
125:
68:
All of the equipment used in a pipe bursting operation is powered by one or multiple hydraulic power generators.
147:
103:
105:"Pipe Bursting Repair of the City of Tallahassee: Capital Circle 36-Inch Hobas Force Main"
8:
42:. "Launching and receiving pits" replace the trench needed by conventional pipe-laying.
35:
121:
113:
152:
104:
38:(such as sewer, water, or natural gas pipes) without the need for a traditional
82:
141:
117:
58:
course at times, resulting in incomplete pipe bursts and project failures.
78:
31:
19:
112:. American Society of Civil Engineers. pp. 415–425.
102:
LaMay, B. W.; Hutchinson, R. E.; Herrera, V. H. (2010).
101:
139:
16:Trenchless method of replacing buried pipelines
18:
140:
71:
13:
14:
164:
23:Pipe replacement by pipe bursting
95:
1:
88:
45:
7:
34:method of replacing buried
10:
171:
24:
148:Trenchless technology
22:
118:10.1061/41138(386)41
52:hydraulic power pack
40:construction trench
72:Other applications
25:
160:
132:
131:
107:
99:
170:
169:
163:
162:
161:
159:
158:
157:
138:
137:
136:
135:
128:
100:
96:
91:
74:
48:
17:
12:
11:
5:
168:
167:
156:
155:
150:
134:
133:
126:
110:Pipelines 2010
93:
92:
90:
87:
73:
70:
47:
44:
15:
9:
6:
4:
3:
2:
166:
165:
154:
151:
149:
146:
145:
143:
129:
127:9780784411384
123:
119:
115:
111:
106:
98:
94:
86:
84:
80:
69:
66:
63:
59:
55:
53:
43:
41:
37:
33:
29:
28:Pipe bursting
21:
109:
97:
75:
67:
64:
60:
56:
49:
27:
26:
79:water mains
142:Categories
89:References
32:trenchless
46:Equipment
36:pipelines
153:Piping
124:
83:sewers
30:is a
122:ISBN
81:and
114:doi
144::
120:.
108:.
54:.
130:.
116::
Text is available under the Creative Commons Attribution-ShareAlike License. Additional terms may apply.